Parlophone Records are proud to announce David Bowie - Who Can I Be Now?, the second in a series of box sets spanning his career from 1969. The box set features all of the material officially released by Bowie during the so-called American phase of his career from 1974 to 1976. The boxed set, which is named after a track recorded in 1974 but not officially released until the 1990s, includes a huge set of studio recordings of some of David Bowie's most memorable tracks.

A sequel to the 2015 box Five Years 1969-1973, 2016's Who Can I Be Now? (1974-1976) covers just three years but this stretch in the mid-'70s happens to be the peak of David Bowie's superstardom. That much can be gleaned from the number of albums within the set: three studio albums - Diamond Dogs, Young Americans, Station to Station, each released in a subsequent year - along with the double live album David Live from 1974. Four albums in three years is plenty but to that core canon Who Can I Be Now? adds five additional alternate albums, each with varying degrees of rarities. There are full latter-day remixes of David Live and Station to Station - the former from 2005, the latter from 2010 - the concert album Live Nassau Coliseum '76, which was added to the super deluxe 2010 reissue of Station to Station, a bonus disc of single edits and stray songs entitled Re:Call, plus an early version of Young Americans called The Gouster.

A sequel to the 2015 box Five Years 1969-1973, 2016's Who Can I Be Now? (1974-1976) covers just three years but this stretch in the mid-'70s happens to be the peak of David Bowie's superstardom. That much can be gleaned from the number of albums within the set: three studio albums – Diamond Dogs, Young Americans, Station to Station, each released in a subsequent year – along with the double live album David Live from 1974…

This research monograph covers extensively the theory of the muon anomalous magnetic moment and provides estimates of the theoretical uncertainties. The muon anomalous magnetic moment is one of the most precisely measured quantities in elementary particle physics and provides one of the most stringent tests of relativistic quantum field theory as a fundamental theoretical framework.